Extraction of biodegradable microplastics from tissues of aquatic organisms
Biodegradable plastics (BPs) have been given high hopes to substitute conventional plastics, but their biodegradation requires strict conditions. BPs can accumulate for a long time in the environment and even derive biodegradable microplastics (BMPs), thus threatening wildlife and ecosystems. Howeve...
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sg-ntu-dr.10356-1641942023-01-09T04:29:10Z Extraction of biodegradable microplastics from tissues of aquatic organisms Yu, Wenyi Chen, Jiaqi Zhang, Shenghu Zhao, Yanping Fang, Mingliang Deng, Yongfeng Zhang, Yan School of Civil and Environmental Engineering Engineering::Environmental engineering Biodegradable Microplastics Extraction Method Biodegradable plastics (BPs) have been given high hopes to substitute conventional plastics, but their biodegradation requires strict conditions. BPs can accumulate for a long time in the environment and even derive biodegradable microplastics (BMPs), thus threatening wildlife and ecosystems. However, no efficient method is available for extracting BMPs from organisms' tissues. This study used multi-criteria decision-making (MCDM) methods to comprehensively evaluate and optimize extraction protocols of five BMPs from economic aquatic species. Digestion time, digestion efficiency, mass loss, cost, polymer integrity and size change were selected as evaluating indictors. According to the screening results of MCDM methods, Pepsin+H2O2 was selected as the optimal digestion method of BMPs because of its highest comprehensive score, which has high digestion efficiency (99.56%) and minimum plastic damage. Compared with olive oil, NaI is more suitable for separating BMPs from the digested residues. Furthermore, the combination of Pepsin+H2O2 digestion and NaI density separation was used to extract all five kinds of BMPs from the bivalve, crab, squid, and crayfish tissues, and all the recovery rates exceeded 80%. These results suggest that the optimal protocol is practicable to extract various BMPs from various aquatic organisms. This work was financially supported by the National Natural Science Foundation of China (42077384 and 21777068), the Fundamental Research Funds for the Central Universities (021114380176), Foundation of State Key Laboratory of Pollution Control and Resource Reuse (PCRRF2022), and Key Laboratory of Pesticide Environmental Assessment and Pollution Control, Ministry of Environmental Protection. 2023-01-09T04:29:10Z 2023-01-09T04:29:10Z 2022 Journal Article Yu, W., Chen, J., Zhang, S., Zhao, Y., Fang, M., Deng, Y. & Zhang, Y. (2022). Extraction of biodegradable microplastics from tissues of aquatic organisms. Science of the Total Environment, 838(Part 4), 156396-. https://dx.doi.org/10.1016/j.scitotenv.2022.156396 0048-9697 https://hdl.handle.net/10356/164194 10.1016/j.scitotenv.2022.156396 35654179 2-s2.0-85131737758 Part 4 838 156396 en Science of the Total Environment © 2022 Elsevier B.V. All rights reserved. |
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Engineering::Environmental engineering Biodegradable Microplastics Extraction Method Yu, Wenyi Chen, Jiaqi Zhang, Shenghu Zhao, Yanping Fang, Mingliang Deng, Yongfeng Zhang, Yan Extraction of biodegradable microplastics from tissues of aquatic organisms |
| description |
Biodegradable plastics (BPs) have been given high hopes to substitute conventional plastics, but their biodegradation requires strict conditions. BPs can accumulate for a long time in the environment and even derive biodegradable microplastics (BMPs), thus threatening wildlife and ecosystems. However, no efficient method is available for extracting BMPs from organisms' tissues. This study used multi-criteria decision-making (MCDM) methods to comprehensively evaluate and optimize extraction protocols of five BMPs from economic aquatic species. Digestion time, digestion efficiency, mass loss, cost, polymer integrity and size change were selected as evaluating indictors. According to the screening results of MCDM methods, Pepsin+H2O2 was selected as the optimal digestion method of BMPs because of its highest comprehensive score, which has high digestion efficiency (99.56%) and minimum plastic damage. Compared with olive oil, NaI is more suitable for separating BMPs from the digested residues. Furthermore, the combination of Pepsin+H2O2 digestion and NaI density separation was used to extract all five kinds of BMPs from the bivalve, crab, squid, and crayfish tissues, and all the recovery rates exceeded 80%. These results suggest that the optimal protocol is practicable to extract various BMPs from various aquatic organisms. |
| author2 |
School of Civil and Environmental Engineering |
| author_facet |
School of Civil and Environmental Engineering Yu, Wenyi Chen, Jiaqi Zhang, Shenghu Zhao, Yanping Fang, Mingliang Deng, Yongfeng Zhang, Yan |
| format |
Article |
| author |
Yu, Wenyi Chen, Jiaqi Zhang, Shenghu Zhao, Yanping Fang, Mingliang Deng, Yongfeng Zhang, Yan |
| author_sort |
Yu, Wenyi |
| title |
Extraction of biodegradable microplastics from tissues of aquatic organisms |
| title_short |
Extraction of biodegradable microplastics from tissues of aquatic organisms |
| title_full |
Extraction of biodegradable microplastics from tissues of aquatic organisms |
| title_fullStr |
Extraction of biodegradable microplastics from tissues of aquatic organisms |
| title_full_unstemmed |
Extraction of biodegradable microplastics from tissues of aquatic organisms |
| title_sort |
extraction of biodegradable microplastics from tissues of aquatic organisms |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/164194 |
| _version_ |
1754611291108933632 |